A novel and simple strategy was proposed for the determination of ZEA in breakfast cereal,
maize powder and rice flour using an electrochemical nanohybrid sensor based on copper …

An electrochemical immunosensor is developed to determine zearalenone (ZEA) mycotoxin
in maize samples. It is based on the use of a composite, which was prepared from anti-ZEA …

Additive manufacturing, also termed 3D printing, enables economical, dynamic and rapid
fabrication of customisable three-dimensional (3D) devices catering for specialised …

In this work, electrochemical immunoassay involving magnetic beads to determine
zearalenone in selected food samples has been developed. The immunoassay scheme has …

An electrochemical immunosensor involving magnetic beads and disposable carbon screen-
printed electrodes (SPEs) for zearalenone (Zea) sensing has been developed and …

A cost-effective single-use sensor technology (ZentoSens) was developed in order to
sensitive and selective voltammetric detection of a mycotoxin, Zearalenone (ZEN) in food …

Mycotoxins are metabolites produced naturally, due to their presence in foodstuffs and their
potential risk for human health, the food industries require analytical methods to secure the …

Zearalenone (ZEA) is a mycotoxin produced by a range of Fusarium fungi that infect cereals.
ZEA may accumulate in cereals before the time of harvest. This paper describes the …

The adsorptive accumulation of rutin (RU) at glassy carbon (GC) electrodes in 10% ethanol+
90% 1moldm− 3 HClO4 aqueous solution is studied by using cyclic (CV) and square wave …

In the present research, a novel and effective electrochemical sensing strategy for the trace
measurement of zearalenone (ZEA) was investigated. The sensing platform is based on a …